--- /dev/null
+++ libmalloc/libmalloc-140.40.1/src/magazine_small.c
@@ -0,0 +1,2128 @@
+/*
+ * Copyright (c) 2015 Apple Inc. All rights reserved.
+ *
+ * @APPLE_LICENSE_HEADER_START@
+ *
+ * This file contains Original Code and/or Modifications of Original Code
+ * as defined in and that are subject to the Apple Public Source License
+ * Version 2.0 (the 'License'). You may not use this file except in
+ * compliance with the License. Please obtain a copy of the License at
+ * http://www.opensource.apple.com/apsl/ and read it before using this
+ * file.
+ *
+ * The Original Code and all software distributed under the License are
+ * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
+ * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
+ * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
+ * Please see the License for the specific language governing rights and
+ * limitations under the License.
+ *
+ * @APPLE_LICENSE_HEADER_END@
+ */
+
+#include "internal.h"
+
+/*********************	SMALL FREE LIST UTILITIES	************************/
+
+#pragma mark meta header helpers
+
+/*
+ * Mark a block as free.  Only the first quantum of a block is marked thusly,
+ * the remainder are marked "middle".
+ */
+static MALLOC_INLINE void
+small_meta_header_set_is_free(msize_t *meta_headers, msize_t index, msize_t msize)
+{
+	meta_headers[index] = msize | SMALL_IS_FREE;
+}
+
+/*
+ * Mark a block as in use.  Only the first quantum of a block is marked thusly,
+ * the remainder are marked "middle".
+ */
+static MALLOC_INLINE void
+small_meta_header_set_in_use(msize_t *meta_headers, msize_t index, msize_t msize)
+{
+	meta_headers[index] = msize;
+}
+
+/*
+ * Mark a quantum as being the second or later in a block.
+ */
+static MALLOC_INLINE void
+small_meta_header_set_middle(msize_t *meta_headers, msize_t index)
+{
+	meta_headers[index] = 0;
+}
+
+#pragma mark in-place free list
+
+static MALLOC_INLINE void
+small_inplace_checksum_ptr(rack_t *rack, inplace_linkage_s *linkage, void *ptr)
+{
+	uintptr_t checksum = free_list_gen_checksum((uintptr_t)ptr ^ rack->cookie ^ (uintptr_t)rack);
+	linkage->checksum = checksum;
+	linkage->ptr = ptr;
+}
+
+static MALLOC_INLINE free_list_t
+small_inplace_unchecksum_ptr(rack_t *rack, inplace_linkage_s *linkage)
+{
+	if (linkage->checksum != free_list_gen_checksum((uintptr_t)linkage->ptr ^ rack->cookie ^ (uintptr_t)rack)) {
+		free_list_checksum_botch(rack, linkage);
+		__builtin_trap();
+	}
+
+	return (free_list_t){ .p = linkage->ptr };
+}
+
+static MALLOC_INLINE free_list_t
+small_inplace_free_entry_get_previous(rack_t *rack, small_inplace_free_entry_t ptr)
+{
+	return small_inplace_unchecksum_ptr(rack, &ptr->previous);
+}
+
+static MALLOC_INLINE void
+small_inplace_free_entry_set_previous(rack_t *rack, small_inplace_free_entry_t entry, free_list_t previous)
+{
+	small_inplace_checksum_ptr(rack, &entry->previous, previous.p);
+}
+
+static MALLOC_INLINE free_list_t
+small_inplace_free_entry_get_next(rack_t *rack, small_inplace_free_entry_t ptr)
+{
+	return small_inplace_unchecksum_ptr(rack, &ptr->next);
+}
+
+static MALLOC_INLINE void
+small_inplace_free_entry_set_next(rack_t *rack, small_inplace_free_entry_t entry, free_list_t next)
+{
+	small_inplace_checksum_ptr(rack, &entry->next, next.p);
+}
+
+#pragma mark OOB free list
+
+// Returns true if the address and size of the free list entry would result
+// in the free entry being the only data on a given page.
+static MALLOC_INLINE boolean_t
+small_needs_oob_free_entry(void *ptr, msize_t msize)
+{
+	return ((trunc_page_quanta((uintptr_t)ptr) == (uintptr_t)ptr) && (SMALL_BYTES_FOR_MSIZE(msize) >= vm_kernel_page_size));
+}
+
+// Returns true if the address given lies within the region's OOB free
+// list entries, rather than a free_list_t in the region's heap space.
+static MALLOC_INLINE boolean_t
+small_is_oob_free_entry(free_list_t ptr)
+{
+	small_region_t region = SMALL_REGION_FOR_PTR(ptr.p);
+	return (((uintptr_t)ptr.p >= (uintptr_t)&region->small_oob_free_entries[0]) &&
+			((uintptr_t)ptr.p < (uintptr_t)&region->small_oob_free_entries[SMALL_OOB_COUNT]));
+}
+
+static MALLOC_INLINE void
+small_oob_free_entry_set_previous(oob_free_entry_t oobe, free_list_t previous)
+{
+	oobe->prev = (uintptr_t)previous.p;
+}
+
+static MALLOC_INLINE free_list_t
+small_oob_free_entry_get_previous(oob_free_entry_t oobe)
+{
+	return (free_list_t){ .p = (void *)oobe->prev };
+}
+
+static MALLOC_INLINE void
+small_oob_free_entry_set_next(oob_free_entry_t oobe, free_list_t next)
+{
+	oobe->next = (uintptr_t)next.p;
+}
+
+static MALLOC_INLINE free_list_t
+small_oob_free_entry_get_next(oob_free_entry_t oobe)
+{
+	return (free_list_t){ .p = (void *)oobe->next };
+}
+
+static MALLOC_INLINE void *
+small_oob_free_entry_get_ptr(oob_free_entry_t oobe)
+{
+	small_region_t region = SMALL_REGION_FOR_PTR(oobe);
+	uint16_t block = oobe->ptr & ~SMALL_IS_OOB;
+	return (void *)((uintptr_t)region + (block << SHIFT_SMALL_QUANTUM));
+}
+
+static MALLOC_INLINE void
+small_oob_free_entry_set_ptr(oob_free_entry_t oobe, void *ptr)
+{
+	oobe->ptr = SMALL_IS_OOB | (SMALL_OFFSET_FOR_PTR(ptr) >> SHIFT_SMALL_QUANTUM);
+}
+
+static MALLOC_INLINE void
+small_oob_free_entry_set_free(oob_free_entry_t oobe)
+{
+	oobe->prev = ~0;
+	oobe->next = ~0;
+	oobe->ptr = 0;
+}
+
+// Finds the first unused OOB free list entry in the pointer's region.
+// Returns NULL if all of the OOB entries are used.
+static MALLOC_INLINE oob_free_entry_t
+small_oob_free_find_empty(void *ptr, msize_t msize)
+{
+	small_region_t region = SMALL_REGION_FOR_PTR(ptr);
+
+	// There are 61 of these entries at the end of a small region.
+	// If this changes, then a linear search through the list may
+	// become an unsuitable choice.
+	for (int i=0; i < SMALL_OOB_COUNT; i++) {
+		if (region->small_oob_free_entries[i].ptr == 0) {
+			return &region->small_oob_free_entries[i];
+		}
+	}
+
+#if DEBUG_MALLOC
+	malloc_printf("used all slots of OOB entries\n");
+#endif
+	return NULL;
+}
+
+static MALLOC_INLINE oob_free_entry_t
+small_oob_free_find_ptr(void *ptr, msize_t msize)
+{
+	small_region_t region = SMALL_REGION_FOR_PTR(ptr);
+
+	// There are 61 of these entries at the end of a small region.
+	// If this changes, then a linear search through the list may
+	// become an unsuitable choice.
+	for (int i=0; i < SMALL_OOB_COUNT; i++) {
+		if (small_oob_free_entry_get_ptr(&region->small_oob_free_entries[i]) == ptr) {
+			return &region->small_oob_free_entries[i];
+		}
+	}
+
+	return NULL;
+}
+
+#pragma mark generic free list
+
+static MALLOC_INLINE void
+small_free_list_set_previous(rack_t *rack, free_list_t entry, free_list_t previous)
+{
+	if (small_is_oob_free_entry(entry)) {
+		small_oob_free_entry_set_previous(entry.oob, previous);
+	} else {
+		small_inplace_free_entry_set_previous(rack, entry.small_inplace, previous);
+	}
+}
+
+static MALLOC_INLINE free_list_t
+small_free_list_get_previous(rack_t *rack, free_list_t ptr)
+{
+	MALLOC_ASSERT(ptr.p);
+	if (small_is_oob_free_entry(ptr)) {
+		return small_oob_free_entry_get_previous(ptr.oob);
+	} else {
+		return small_inplace_free_entry_get_previous(rack, ptr.small_inplace);
+	}
+}
+
+static MALLOC_INLINE void
+small_free_list_set_next(rack_t *rack, free_list_t entry, free_list_t next)
+{
+	if (small_is_oob_free_entry(entry)) {
+		small_oob_free_entry_set_next(entry.oob, next);
+	} else {
+		small_inplace_free_entry_set_next(rack, entry.small_inplace, next);
+	}
+}
+
+static MALLOC_INLINE free_list_t
+small_free_list_get_next(rack_t *rack, free_list_t ptr)
+{
+	MALLOC_ASSERT(ptr.p);
+	if (small_is_oob_free_entry(ptr)) {
+		return small_oob_free_entry_get_next(ptr.oob);
+	} else {
+		return small_inplace_free_entry_get_next(rack, ptr.small_inplace);
+	}
+}
+
+static MALLOC_INLINE void *
+small_free_list_get_ptr(rack_t *rack, free_list_t ptr)
+{
+	if (!ptr.p) {
+		return NULL;
+	} else if (small_is_oob_free_entry(ptr)) {
+		return small_oob_free_entry_get_ptr(ptr.oob);
+	} else {
+		return (void *)ptr.p;
+	}
+}
+
+// Returns a free_list_t that is either inline or not based on the
+// pointer and msize.
+static MALLOC_INLINE free_list_t
+small_free_list_from_ptr(rack_t *rack, void *ptr, msize_t msize)
+{
+	MALLOC_ASSERT(msize);
+
+	// The default is to put the free_list_t in the memory that
+	// the pointer leads to.
+	free_list_t entry;
+	entry.p = ptr;
+
+	// If the pointer is page aligned, and the msize is greater
+	// than a whole page, then we try and put the entry in
+	// the out-of-band area instead.
+	if (small_needs_oob_free_entry(ptr, msize)) {
+		oob_free_entry_t oobe = small_oob_free_find_empty(ptr, msize);
+		if (oobe) {
+			small_oob_free_entry_set_ptr(oobe, ptr);
+			entry.oob = oobe;
+		}
+	}
+
+	return entry;
+}
+
+static MALLOC_INLINE void
+small_free_mark_free(rack_t *rack, free_list_t entry, msize_t msize)
+{
+	// Marks both the start and end block of a free-list entry as free.
+	void *ptr = small_free_list_get_ptr(rack, entry);
+	msize_t *meta_headers = SMALL_META_HEADER_FOR_PTR(ptr);
+	uintptr_t start_index = SMALL_META_INDEX_FOR_PTR(ptr);
+	uintptr_t end_index = SMALL_META_INDEX_FOR_PTR(ptr + SMALL_BYTES_FOR_MSIZE(msize) - 1);
+	MALLOC_ASSERT(start_index <= end_index);
+
+	small_meta_header_set_is_free(meta_headers, start_index, msize);
+	small_meta_header_set_is_free(meta_headers, end_index, msize);
+}
+
+static MALLOC_INLINE void
+small_free_mark_unfree(rack_t *rack, free_list_t entry, msize_t msize)
+{
+	// Marks both the start and end block of a free-list entry as "middle" (unfree).
+	void *ptr = small_free_list_get_ptr(rack, entry);
+	msize_t *meta_headers = SMALL_META_HEADER_FOR_PTR(ptr);
+	uintptr_t start_index = SMALL_META_INDEX_FOR_PTR(ptr);
+	uintptr_t end_index = SMALL_META_INDEX_FOR_PTR(ptr + SMALL_BYTES_FOR_MSIZE(msize) - 1);
+	MALLOC_ASSERT(start_index <= end_index);
+
+	small_meta_header_set_middle(meta_headers, start_index);
+	small_meta_header_set_middle(meta_headers, end_index);
+}
+
+static MALLOC_INLINE unsigned int
+small_free_list_count(rack_t *rack, free_list_t ptr)
+{
+	unsigned int count = 0;
+	while (ptr.p) {
+		count++;
+		ptr = small_free_list_get_next(rack, ptr);
+	}
+	return count;
+}
+
+/*
+ * Adds an item to the proper free list, and also marks the meta-header of the
+ * block properly.
+ * Assumes szone has been locked
+ */
+static free_list_t
+small_free_list_add_ptr(rack_t *rack, magazine_t *small_mag_ptr, void *ptr, msize_t msize)
+{
+	grain_t slot = SMALL_FREE_SLOT_FOR_MSIZE(rack, msize);
+	free_list_t free_head = small_mag_ptr->mag_free_list[slot];
+
+	// This will either return the free_list_t for the current pointer, or attempt
+	// to reserve an OOB entry for us.
+	free_list_t free_ptr = small_free_list_from_ptr(rack, ptr, msize);
+
+#if DEBUG_MALLOC
+	if (LOG(szone, ptr)) {
+		malloc_printf("in %s, ptr=%p, msize=%d\n", __FUNCTION__, ptr, msize);
+	}
+	if (((uintptr_t)ptr) & (SMALL_QUANTUM - 1)) {
+		szone_error(rack->debug_flags, 1, "small_free_list_add_ptr: Unaligned ptr", ptr, NULL);
+	}
+#endif
+
+	small_free_list_set_previous(rack, free_ptr, (free_list_t){ .p = NULL });
+	small_free_list_set_next(rack, free_ptr, free_head);
+
+	// Set the start and end blocks of the meta header as "free". Marking the last block
+	// allows coalescing the regions when we free adjacent regions.
+	small_free_mark_free(rack, free_ptr, msize);
+
+	if (small_free_list_get_ptr(rack, free_head)) {
+#if DEBUG_MALLOC
+		if (small_free_list_get_previous(szone, free_head)) {
+			szone_error(rack->debug_flags, 1, "small_free_list_add_ptr: Internal invariant broken (free_head->previous != NULL)", ptr,
+						"ptr=%p slot=%d free_head=%p previous=%p\n", ptr, slot, (void *)free_head, free_head->previous.p);
+		}
+		if (!SMALL_PTR_IS_FREE(small_free_list_get_ptr(szone, free_head))) {
+			szone_error(rack->debug_flags, 1, "small_free_list_add_ptr: Internal invariant broken (free_head is not a free pointer)", ptr,
+						"ptr=%p slot=%d free_head=%p\n", ptr, slot, (void *)small_free_list_get_ptr(szone, free_head));
+		}
+#endif
+		small_free_list_set_previous(rack, free_head, free_ptr);
+	} else {
+		BITMAPN_SET(small_mag_ptr->mag_bitmap, slot);
+	}
+
+	small_mag_ptr->mag_free_list[slot] = free_ptr;
+	return free_ptr;
+}
+
+/*
+ * Removes the item pointed to by ptr in the proper free list.
+ * Assumes szone has been locked
+ */
+static void
+small_free_list_remove_ptr_no_clear(rack_t *rack, magazine_t *small_mag_ptr, free_list_t entry, msize_t msize)
+{
+	grain_t slot = SMALL_FREE_SLOT_FOR_MSIZE(rack, msize);
+	free_list_t next, previous;
+
+#if DEBUG_MALLOC
+	if (LOG(szone, ptr)) {
+		malloc_printf("In %s, ptr=%p, msize=%d\n", __FUNCTION__, ptr, msize);
+	}
+#endif
+
+	previous = small_free_list_get_previous(rack, entry);
+	next = small_free_list_get_next(rack, entry);
+
+	if (!small_free_list_get_ptr(rack, previous)) {
+		// The block to remove is the head of the free list
+#if DEBUG_MALLOC
+		if (small_mag_ptr->mag_free_list[slot] != ptr) {
+			szone_error(rack->debug_flags, 1,
+						"small_free_list_remove_ptr: Internal invariant broken (small_mag_ptr->mag_free_list[slot])", ptr,
+						"ptr=%p slot=%d msize=%d small_mag_ptr->mag_free_list[slot]=%p\n", ptr, slot, msize,
+						(void *)small_mag_ptr->mag_free_list[slot]);
+			return;
+		}
+#endif
+		small_mag_ptr->mag_free_list[slot] = next;
+		if (!small_free_list_get_ptr(rack, next)) {
+			BITMAPN_CLR(small_mag_ptr->mag_bitmap, slot);
+		}
+	} else {
+		small_free_list_set_next(rack, previous, next);
+	}
+
+	if (small_free_list_get_ptr(rack, next)) {
+		small_free_list_set_previous(rack, next, previous);
+	}
+
+	if (small_is_oob_free_entry(entry)) {
+		small_oob_free_entry_set_free(entry.oob);
+	}
+}
+
+static void
+small_free_list_remove_ptr(rack_t *rack, magazine_t *small_mag_ptr, free_list_t entry, msize_t msize)
+{
+	// In the general case we want to ensure we marked these entries as "middle"
+	// while we are in this function. However, when we're moving free list entries
+	// from/to the recirc depot we rely on the metadata bits being intact to
+	// reconstruct the free list. In that case we have to be able to skip this
+	// metadata manipulation.
+	small_free_mark_unfree(rack, entry, msize);
+	small_free_list_remove_ptr_no_clear(rack, small_mag_ptr, entry, msize);
+}
+
+// Find a free list entry by its pointer address. This should only really be used
+// by small_finalize_region, or similar, where the free_list_t entry of a known
+// pointer is desired. Otherwise it is cheaper to always pull off the free lists.
+static free_list_t
+small_free_list_find_by_ptr(rack_t *rack, magazine_t *small_mag_ptr, void *ptr, msize_t msize)
+{
+	if (*SMALL_METADATA_FOR_PTR(ptr) == (SMALL_IS_FREE | msize)) {
+		// If the block is marked free, and of size `msize`, then we first must check
+		// if the alignment+size is such that we could have use an OOB-entry.
+		if (small_needs_oob_free_entry(ptr, msize)) {
+			// Scan the OOB entries looking for this address.
+			small_region_t region = SMALL_REGION_FOR_PTR(ptr);
+			for (int i=0; i<SMALL_OOB_COUNT; i++) {
+				if (!region->small_oob_free_entries[i].ptr) {
+					continue;
+				}
+				if (small_oob_free_entry_get_ptr(&region->small_oob_free_entries[i]) == ptr) {
+					return (free_list_t){ .oob = &region->small_oob_free_entries[i] };
+				}
+			}
+		}
+
+		// Otherwise, the freed pointer will be in place.
+		return (free_list_t){ .p = ptr };
+	}
+
+	szone_error(rack->debug_flags, 1, "small_free_list_find_by_ptr: ptr is not free (ptr metadata !SMALL_IS_FREE)", ptr,
+				"ptr=%p msize=%d metadata=0x%x", ptr, msize, *SMALL_METADATA_FOR_PTR(ptr));
+	__builtin_trap();
+}
+
+void
+small_finalize_region(rack_t *rack, magazine_t *small_mag_ptr)
+{
+	void *last_block, *previous_block;
+	msize_t last_msize, previous_msize, last_index;
+	free_list_t previous;
+
+	// It is possible that the block prior to the last block in the region has
+	// been free'd, but was not coalesced with the free bytes at the end of the
+	// block, since we treat the bytes at the end of the region as "in use" in
+	// the meta headers. Attempt to coalesce the last block with the previous
+	// block, so we don't violate the "no consecutive free blocks" invariant.
+	//
+	// FIXME: If we could calculate the previous small free size in the same
+	//        manner as tiny_previous_preceding_free, it would eliminate the
+	//        index & previous msize checks, which are a guard against reading
+	//        bogus data out of in-use or written-on-freed memory.
+	//
+	// FIXME: Need to investigate how much work would be required to increase
+	//        'mag_bytes_free_at_end' when freeing the preceding block, rather
+	//        than performing this workaround.
+	//
+	if (small_mag_ptr->mag_bytes_free_at_end) {
+		last_block = SMALL_REGION_END(small_mag_ptr->mag_last_region) - small_mag_ptr->mag_bytes_free_at_end;
+		last_msize = SMALL_MSIZE_FOR_BYTES(small_mag_ptr->mag_bytes_free_at_end);
+
+		last_index = SMALL_META_INDEX_FOR_PTR(last_block);
+		previous_msize = SMALL_PREVIOUS_MSIZE(last_block);
+
+		if (last_index && (previous_msize <= last_index)) {
+			previous_block = (void *)((uintptr_t)last_block - SMALL_BYTES_FOR_MSIZE(previous_msize));
+
+			if (SMALL_PTR_IS_FREE(previous_block)) {
+				previous = small_free_list_find_by_ptr(rack, small_mag_ptr, previous_block, previous_msize);
+				small_free_list_remove_ptr(rack, small_mag_ptr, previous, previous_msize);
+				last_block = previous_block;
+				last_msize += previous_msize;
+			}
+		}
+
+		// splice last_block into the free list
+		small_free_list_add_ptr(rack, small_mag_ptr, last_block, last_msize);
+		small_mag_ptr->mag_bytes_free_at_end = 0;
+	}
+
+#if CONFIG_ASLR_INTERNAL
+	free_list_t next;
+
+	if (small_mag_ptr->mag_bytes_free_at_start) {
+		last_block = SMALL_REGION_ADDRESS(small_mag_ptr->mag_last_region);
+		last_msize = SMALL_MSIZE_FOR_BYTES(small_mag_ptr->mag_bytes_free_at_start);
+
+		void *next_block = (void *)((uintptr_t)last_block + small_mag_ptr->mag_bytes_free_at_start);
+		if (SMALL_PTR_IS_FREE(next_block)) {
+			msize_t next_msize = SMALL_PTR_SIZE(next_block);
+			next = small_free_list_find_by_ptr(rack, small_mag_ptr, next_block, next_msize);
+			small_free_list_remove_ptr(rack, small_mag_ptr, next, next_msize);
+			last_msize += next_msize;
+		}
+
+		// splice last_block into the free list
+		small_free_list_add_ptr(rack, small_mag_ptr, last_block, last_msize);
+		small_mag_ptr->mag_bytes_free_at_start = 0;
+	}
+#endif
+
+	// TODO: Will we ever need to coalesce the blocks at the beginning and end when we finalize?
+	small_mag_ptr->mag_last_region = NULL;
+}
+
+int
+small_free_detach_region(rack_t *rack, magazine_t *small_mag_ptr, region_t r)
+{
+	unsigned char *ptr = SMALL_REGION_ADDRESS(r);
+	msize_t *meta_headers = SMALL_META_HEADER_FOR_PTR(ptr);
+	uintptr_t start = (uintptr_t)SMALL_REGION_ADDRESS(r);
+	uintptr_t current = start;
+	uintptr_t limit = (uintptr_t)SMALL_REGION_END(r);
+	int total_alloc = 0;
+
+	while (current < limit) {
+		unsigned index = SMALL_META_INDEX_FOR_PTR(current);
+		msize_t msize_and_free = meta_headers[index];
+		boolean_t is_free = msize_and_free & SMALL_IS_FREE;
+		msize_t msize = msize_and_free & ~SMALL_IS_FREE;
+
+		if (!msize) {
+#if DEBUG_MALLOC
+			boolean_t is_free = msize_and_free & SMALL_IS_FREE;
+			malloc_printf("*** small_free_detach_region error with %p: msize=%d is_free =%d\n", (void *)current, msize, is_free);
+#endif
+			break;
+		}
+
+		if (is_free) {
+			free_list_t entry = small_free_list_find_by_ptr(rack, small_mag_ptr, (void *)current, msize);
+			small_free_list_remove_ptr_no_clear(rack, small_mag_ptr, entry, msize);
+		} else {
+			total_alloc++;
+		}
+		current += SMALL_BYTES_FOR_MSIZE(msize);
+	}
+	return total_alloc;
+}
+
+size_t
+small_free_reattach_region(rack_t *rack, magazine_t *small_mag_ptr, region_t r)
+{
+	unsigned char *ptr = SMALL_REGION_ADDRESS(r);
+	msize_t *meta_headers = SMALL_META_HEADER_FOR_PTR(ptr);
+	uintptr_t start = (uintptr_t)SMALL_REGION_ADDRESS(r);
+	uintptr_t current = start;
+	uintptr_t limit = (uintptr_t)SMALL_REGION_END(r);
+	size_t total_alloc = 0;
+
+	while (current < limit) {
+		unsigned index = SMALL_META_INDEX_FOR_PTR(current);
+		msize_t msize_and_free = meta_headers[index];
+		boolean_t is_free = msize_and_free & SMALL_IS_FREE;
+		msize_t msize = msize_and_free & ~SMALL_IS_FREE;
+
+		if (!msize) {
+#if DEBUG_MALLOC
+			malloc_printf("*** small_free_reattach_region error with %p: msize=%d is_free =%d\n", (void *)current, msize, is_free);
+#endif
+			break;
+		}
+		if (is_free) {
+			small_free_list_add_ptr(rack, small_mag_ptr, (void *)current, msize);
+		} else {
+			total_alloc += SMALL_BYTES_FOR_MSIZE(msize);
+		}
+		current += SMALL_BYTES_FOR_MSIZE(msize);
+	}
+	return total_alloc;
+}
+
+typedef struct {
+	uint16_t pnum, size;
+} small_pg_pair_t;
+
+void
+small_free_scan_madvise_free(rack_t *rack, magazine_t *depot_ptr, region_t r)
+{
+	uintptr_t start = (uintptr_t)SMALL_REGION_ADDRESS(r);
+	uintptr_t current = start;
+	uintptr_t limit = (uintptr_t)SMALL_REGION_END(r);
+	msize_t *meta_headers = SMALL_META_HEADER_FOR_PTR(start);
+	small_pg_pair_t advisory[((SMALL_REGION_PAYLOAD_BYTES + vm_kernel_page_size - 1) >> vm_kernel_page_shift) >>
+							 1]; // 4096bytes stack allocated
+	int advisories = 0;
+
+	// Scan the metadata identifying blocks which span one or more pages. Mark the pages MADV_FREE taking care to preserve free list
+	// management data.
+	while (current < limit) {
+		unsigned index = SMALL_META_INDEX_FOR_PTR(current);
+		msize_t msize_and_free = meta_headers[index];
+		boolean_t is_free = msize_and_free & SMALL_IS_FREE;
+		msize_t msize = msize_and_free & ~SMALL_IS_FREE;
+
+		if (is_free && !msize && (current == start)) {
+#if DEBUG_MALLOC
+			// first block is all free
+			malloc_printf("*** small_free_scan_madvise_free first block is all free! %p: msize=%d is_free =%d\n", (void *)current,
+						  msize, is_free);
+#endif
+			uintptr_t pgLo = round_page_kernel(start + sizeof(free_list_t) + sizeof(msize_t));
+			uintptr_t pgHi = trunc_page_kernel(start + SMALL_REGION_SIZE - sizeof(msize_t));
+
+			if (pgLo < pgHi) {
+				advisory[advisories].pnum = (pgLo - start) >> vm_kernel_page_shift;
+				advisory[advisories].size = (pgHi - pgLo) >> vm_kernel_page_shift;
+				advisories++;
+			}
+			break;
+		}
+		if (!msize) {
+#if DEBUG_MALLOC
+			malloc_printf(
+						  "*** small_free_scan_madvise_free error with %p: msize=%d is_free =%d\n", (void *)current, msize, is_free);
+#endif
+			break;
+		}
+		if (is_free) {
+			uintptr_t pgLo = round_page_kernel(current + sizeof(free_list_t) + sizeof(msize_t));
+			uintptr_t pgHi = trunc_page_kernel(current + SMALL_BYTES_FOR_MSIZE(msize) - sizeof(msize_t));
+
+			if (pgLo < pgHi) {
+				advisory[advisories].pnum = (pgLo - start) >> vm_kernel_page_shift;
+				advisory[advisories].size = (pgHi - pgLo) >> vm_kernel_page_shift;
+				advisories++;
+			}
+		}
+		current += SMALL_BYTES_FOR_MSIZE(msize);
+	}
+
+	if (advisories > 0) {
+		int i;
+
+		OSAtomicIncrement32Barrier(&(REGION_TRAILER_FOR_SMALL_REGION(r)->pinned_to_depot));
+		SZONE_MAGAZINE_PTR_UNLOCK(depot_ptr);
+		for (i = 0; i < advisories; ++i) {
+			uintptr_t addr = (advisory[i].pnum << vm_page_quanta_shift) + start;
+			size_t size = advisory[i].size << vm_page_quanta_shift;
+
+			mvm_madvise_free(rack, r, addr, addr + size, NULL);
+		}
+		SZONE_MAGAZINE_PTR_LOCK(depot_ptr);
+		OSAtomicDecrement32Barrier(&(REGION_TRAILER_FOR_SMALL_REGION(r)->pinned_to_depot));
+	}
+}
+
+static region_t
+small_find_msize_region(rack_t *rack, magazine_t *small_mag_ptr, mag_index_t mag_index, msize_t msize)
+{
+	void *ptr;
+	grain_t slot = SMALL_FREE_SLOT_FOR_MSIZE(rack, msize);
+	free_list_t *free_list = small_mag_ptr->mag_free_list;
+	free_list_t *the_slot = free_list + slot;
+	free_list_t *limit;
+	unsigned bitmap;
+
+	// Assumes we've locked the magazine
+	CHECK_MAGAZINE_PTR_LOCKED(szone, small_mag_ptr, __PRETTY_FUNCTION__);
+
+	// Look for an exact match by checking the freelist for this msize.
+	ptr = small_free_list_get_ptr(rack, *the_slot);
+	if (ptr) {
+		return SMALL_REGION_FOR_PTR(ptr);
+	}
+
+	// Mask off the bits representing slots holding free blocks smaller than
+	// the size we need.
+	if (rack->debug_flags & MALLOC_EXTENDED_SMALL_SLOTS) {
+		// BITMAPN_CTZ implementation
+		unsigned idx = slot >> 5;
+		bitmap = 0;
+		unsigned mask = ~((1 << (slot & 31)) - 1);
+		for (; idx < SMALL_BITMAP_WORDS; ++idx) {
+			bitmap = small_mag_ptr->mag_bitmap[idx] & mask;
+			if (bitmap != 0) {
+				break;
+			}
+			mask = ~0U;
+		}
+		// Check for fallthrough: No bits set in bitmap
+		if ((bitmap == 0) && (idx == SMALL_BITMAP_WORDS)) {
+			return NULL;
+		}
+
+		// Start looking at the first set bit, plus 32 bits for every word of
+		// zeroes or entries that were too small.
+		slot = BITMAP32_CTZ((&bitmap)) + (idx * 32);
+	} else {
+		bitmap = small_mag_ptr->mag_bitmap[0] & ~((1 << slot) - 1);
+		if (!bitmap) {
+			return NULL;
+		}
+
+		slot = BITMAP32_CTZ((&bitmap));
+	}
+	limit = free_list + SMALL_FREE_SLOT_COUNT(rack) - 1;
+	free_list += slot;
+
+	if (free_list < limit) {
+		ptr = small_free_list_get_ptr(rack, *free_list);
+		if (ptr) {
+			return SMALL_REGION_FOR_PTR(ptr);
+		} else {
+			/* Shouldn't happen. Fall through to look at last slot. */
+#if DEBUG_MALLOC
+			malloc_printf("in small_malloc_from_free_list(), mag_bitmap out of sync, slot=%d\n", slot);
+#endif
+		}
+	}
+
+	// We are now looking at the last slot, which contains blocks equal to, or
+	// due to coalescing of free blocks, larger than (num_small_slots - 1) * (small quantum size).
+	ptr = small_free_list_get_ptr(rack, *limit);
+	if (ptr) {
+		return SMALL_REGION_FOR_PTR(ptr);
+	}
+
+	return NULL;
+}
+
+static boolean_t
+small_get_region_from_depot(rack_t *rack, magazine_t *small_mag_ptr, mag_index_t mag_index, msize_t msize)
+{
+	magazine_t *depot_ptr = &(rack->magazines[DEPOT_MAGAZINE_INDEX]);
+
+	/* FIXME: Would Uniprocessor benefit from recirc and MADV_FREE? */
+	if (rack->num_magazines == 1) { // Uniprocessor, single magazine, so no recirculation necessary
+		return 0;
+	}
+
+#if DEBUG_MALLOC
+	if (DEPOT_MAGAZINE_INDEX == mag_index) {
+		szone_error(rack->debug_flags, 1, "small_get_region_from_depot called for magazine index -1", NULL, NULL);
+		return 0;
+	}
+#endif
+
+	SZONE_MAGAZINE_PTR_LOCK(depot_ptr);
+
+	// Appropriate a Depot'd region that can satisfy requested msize.
+	region_trailer_t *node;
+	region_t sparse_region;
+
+	while (1) {
+		sparse_region = small_find_msize_region(rack, depot_ptr, DEPOT_MAGAZINE_INDEX, msize);
+		if (NULL == sparse_region) { // Depot empty?
+			SZONE_MAGAZINE_PTR_UNLOCK(depot_ptr);
+			return 0;
+		}
+
+		node = REGION_TRAILER_FOR_SMALL_REGION(sparse_region);
+		if (0 >= node->pinned_to_depot) {
+			break;
+		}
+
+		SZONE_MAGAZINE_PTR_UNLOCK(depot_ptr);
+		yield();
+		SZONE_MAGAZINE_PTR_LOCK(depot_ptr);
+	}
+
+	// disconnect node from Depot
+	recirc_list_extract(rack, depot_ptr, node);
+
+	// Iterate the region pulling its free entries off the (locked) Depot's free list
+	int objects_in_use = small_free_detach_region(rack, depot_ptr, sparse_region);
+
+	// Transfer ownership of the region
+	MAGAZINE_INDEX_FOR_SMALL_REGION(sparse_region) = mag_index;
+	node->pinned_to_depot = 0;
+
+	// Iterate the region putting its free entries on its new (locked) magazine's free list
+	size_t bytes_inplay = small_free_reattach_region(rack, small_mag_ptr, sparse_region);
+
+	depot_ptr->mag_num_bytes_in_objects -= bytes_inplay;
+	depot_ptr->num_bytes_in_magazine -= SMALL_REGION_PAYLOAD_BYTES;
+	depot_ptr->mag_num_objects -= objects_in_use;
+
+	small_mag_ptr->mag_num_bytes_in_objects += bytes_inplay;
+	small_mag_ptr->num_bytes_in_magazine += SMALL_REGION_PAYLOAD_BYTES;
+	small_mag_ptr->mag_num_objects += objects_in_use;
+
+	// connect to magazine as first node
+	recirc_list_splice_first(rack, small_mag_ptr, node);
+
+	SZONE_MAGAZINE_PTR_UNLOCK(depot_ptr);
+
+	// madvise() outside the Depot lock
+	(void)mvm_madvise_reuse(sparse_region, (uintptr_t)sparse_region,
+			(uintptr_t)sparse_region + SMALL_REGION_PAYLOAD_BYTES, rack->debug_flags);
+
+	MAGMALLOC_DEPOTREGION(SMALL_SZONE_FROM_RACK(rack), (int)mag_index, (void *)sparse_region, SMALL_REGION_SIZE,
+						  (int)BYTES_USED_FOR_SMALL_REGION(sparse_region)); // DTrace USDT Probe
+
+	return 1;
+}
+
+#if CONFIG_AGGRESSIVE_MADVISE || CONFIG_RECIRC_DEPOT
+static MALLOC_INLINE void
+small_madvise_free_range_no_lock(rack_t *rack,
+								 magazine_t *small_mag_ptr,
+								 region_t region,
+								 free_list_t freee,
+								 msize_t fmsize,
+								 void *headptr,
+								 size_t headsize)
+{
+	void *ptr = small_free_list_get_ptr(rack, freee);
+	region_trailer_t *node = REGION_TRAILER_FOR_SMALL_REGION(region);
+
+	// Lock on small_magazines[mag_index] is already held here.
+	// Calculate the first page in the coalesced block that would be safe to mark MADV_FREE
+	size_t free_header_size = sizeof(free_list_t) + sizeof(msize_t);
+
+	// If the free_list_t entry is out-of-line then we don't need to reserve any space
+	// at the start of the region.
+	if (small_is_oob_free_entry(freee)) {
+		free_header_size = 0;
+	}
+
+	uintptr_t safe_ptr = (uintptr_t)ptr + free_header_size;
+	uintptr_t round_safe = round_page_kernel(safe_ptr);
+
+	// Calculate the last page in the coalesced block that would be safe to mark MADV_FREE
+	uintptr_t safe_extent = (uintptr_t)ptr + SMALL_BYTES_FOR_MSIZE(fmsize);
+	uintptr_t trunc_extent = trunc_page_kernel(safe_extent);
+
+	// The newly freed block may complete a span of bytes that cover one or more pages. Mark the span with MADV_FREE.
+	if (round_safe < trunc_extent) { // Coalesced area covers a page (perhaps many)
+		// Extend the freed block by the free region header and tail sizes to include pages
+		// we may have coalesced that no longer host free region tails and headers.
+		// This may extend over in-use ranges, but the MIN/MAX clamping below will fix that up.
+		uintptr_t lo = trunc_page_kernel((uintptr_t)headptr);
+		uintptr_t hi = round_page_kernel((uintptr_t)headptr + headsize + free_header_size);
+
+		uintptr_t free_lo = MAX(round_safe, lo);
+		uintptr_t free_hi = MIN(trunc_extent, hi);
+
+		if (free_lo < free_hi) {
+			small_free_list_remove_ptr(rack, small_mag_ptr, freee, fmsize);
+			OSAtomicIncrement32Barrier(&(node->pinned_to_depot));
+			SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+			mvm_madvise_free(rack, region, free_lo, free_hi, &rack->last_madvise);
+			SZONE_MAGAZINE_PTR_LOCK(small_mag_ptr);
+			OSAtomicDecrement32Barrier(&(node->pinned_to_depot));
+			small_free_list_add_ptr(rack, small_mag_ptr, ptr, fmsize);
+		}
+	}
+}
+#endif // CONFIG_AGGRESSIVE_MADVISE || CONFIG_RECIRC_DEPOT
+
+#if CONFIG_RECIRC_DEPOT
+static region_t
+small_free_try_depot_unmap_no_lock(rack_t *rack, magazine_t *depot_ptr, region_trailer_t *node)
+{
+	if (0 < node->bytes_used || 0 < node->pinned_to_depot || depot_ptr->recirculation_entries < (rack->num_magazines * 2)) {
+		return NULL;
+	}
+
+	// disconnect first node from Depot
+	recirc_list_extract(rack, depot_ptr, node);
+
+	// Iterate the region pulling its free entries off the (locked) Depot's free list
+	region_t sparse_region = SMALL_REGION_FOR_PTR(node);
+	int objects_in_use = small_free_detach_region(rack, depot_ptr, sparse_region);
+
+	if (0 == objects_in_use) {
+		// Invalidate the hash table entry for this region with HASHRING_REGION_DEALLOCATED.
+		// Using HASHRING_REGION_DEALLOCATED preserves the collision chain, using HASHRING_OPEN_ENTRY (0) would not.
+		rgnhdl_t pSlot = hash_lookup_region_no_lock(rack->region_generation->hashed_regions,
+													rack->region_generation->num_regions_allocated,
+													rack->region_generation->num_regions_allocated_shift,
+													sparse_region);
+		if (NULL == pSlot) {
+			szone_error(rack->debug_flags, 1, "small_free_try_depot_unmap_no_lock hash lookup failed:", NULL, "%p\n", sparse_region);
+			return NULL;
+		}
+		*pSlot = HASHRING_REGION_DEALLOCATED;
+		depot_ptr->num_bytes_in_magazine -= SMALL_REGION_PAYLOAD_BYTES;
+		// Atomically increment num_regions_dealloc
+#ifdef __LP64___
+		OSAtomicIncrement64(&rack->num_regions_dealloc);
+#else
+		OSAtomicIncrement32((int32_t *)&rack->num_regions_dealloc);
+#endif
+
+		// Caller will transfer ownership of the region back to the OS with no locks held
+		MAGMALLOC_DEALLOCREGION(SMALL_SZONE_FROM_RACK(rack), (void *)sparse_region, (int)SMALL_REGION_SIZE); // DTrace USDT Probe
+		return sparse_region;
+
+	} else {
+		szone_error(rack->debug_flags, 1, "small_free_try_depot_unmap_no_lock objects_in_use not zero:", NULL, "%d\n", objects_in_use);
+		return NULL;
+	}
+}
+
+static boolean_t
+small_free_do_recirc_to_depot(rack_t *rack, magazine_t *small_mag_ptr, mag_index_t mag_index)
+{
+	// The entire magazine crossed the "emptiness threshold". Transfer a region
+	// from this magazine to the Depot. Choose a region that itself has crossed the emptiness threshold (i.e
+	// is at least fraction "f" empty.) Such a region will be marked "suitable" on the recirculation list.
+	region_trailer_t *node = small_mag_ptr->firstNode;
+
+	while (node && !node->recirc_suitable) {
+		node = node->next;
+	}
+
+	if (NULL == node) {
+#if DEBUG_MALLOC
+		malloc_printf("*** small_free_do_recirc_to_depot end of list\n");
+#endif
+		return TRUE; // Caller must SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+	}
+
+	region_t sparse_region = SMALL_REGION_FOR_PTR(node);
+
+	// Deal with unclaimed memory -- mag_bytes_free_at_end or mag_bytes_free_at start
+	if (sparse_region == small_mag_ptr->mag_last_region &&
+		(small_mag_ptr->mag_bytes_free_at_end || small_mag_ptr->mag_bytes_free_at_start)) {
+		small_finalize_region(rack, small_mag_ptr);
+	}
+
+	// disconnect "suitable" node from magazine
+	recirc_list_extract(rack, small_mag_ptr, node);
+
+	// Iterate the region pulling its free entries off its (locked) magazine's free list
+	int objects_in_use = small_free_detach_region(rack, small_mag_ptr, sparse_region);
+	magazine_t *depot_ptr = &(rack->magazines[DEPOT_MAGAZINE_INDEX]);
+
+	// hand over the region to the (locked) Depot
+	SZONE_MAGAZINE_PTR_LOCK(depot_ptr);
+	// this will cause small_free_list_add_ptr called by small_free_reattach_region to use
+	// the depot as its target magazine, rather than magazine formerly associated with sparse_region
+	MAGAZINE_INDEX_FOR_SMALL_REGION(sparse_region) = DEPOT_MAGAZINE_INDEX;
+	node->pinned_to_depot = 0;
+
+	// Iterate the region putting its free entries on Depot's free list
+	size_t bytes_inplay = small_free_reattach_region(rack, depot_ptr, sparse_region);
+
+	small_mag_ptr->mag_num_bytes_in_objects -= bytes_inplay;
+	small_mag_ptr->num_bytes_in_magazine -= SMALL_REGION_PAYLOAD_BYTES;
+	small_mag_ptr->mag_num_objects -= objects_in_use;
+
+	SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr); // Unlock the originating magazine
+
+	depot_ptr->mag_num_bytes_in_objects += bytes_inplay;
+	depot_ptr->num_bytes_in_magazine += SMALL_REGION_PAYLOAD_BYTES;
+	depot_ptr->mag_num_objects += objects_in_use;
+
+	// connect to Depot as last node
+	recirc_list_splice_last(rack, depot_ptr, node);
+
+	MAGMALLOC_RECIRCREGION(SMALL_SZONE_FROM_RACK(rack), (int)mag_index, (void *)sparse_region, SMALL_REGION_SIZE,
+						   (int)BYTES_USED_FOR_SMALL_REGION(sparse_region)); // DTrace USDT Probe
+
+#if !CONFIG_AGGRESSIVE_MADVISE
+	// Mark free'd dirty pages with MADV_FREE to reduce memory pressure
+	small_free_scan_madvise_free(rack, depot_ptr, sparse_region);
+#endif
+
+	// If the region is entirely empty vm_deallocate() it outside the depot lock
+	region_t r_dealloc = small_free_try_depot_unmap_no_lock(rack, depot_ptr, node);
+	SZONE_MAGAZINE_PTR_UNLOCK(depot_ptr);
+	if (r_dealloc) {
+		mvm_deallocate_pages(r_dealloc, SMALL_REGION_SIZE, 0);
+	}
+	return FALSE; // Caller need not unlock the originating magazine
+}
+
+static MALLOC_INLINE boolean_t
+small_free_try_recirc_to_depot(rack_t *rack,
+							   magazine_t *small_mag_ptr,
+							   mag_index_t mag_index,
+							   region_t region,
+							   free_list_t freee,
+							   msize_t msize,
+							   void *headptr,
+							   size_t headsize)
+{
+	region_trailer_t *node = REGION_TRAILER_FOR_SMALL_REGION(region);
+	size_t bytes_used = node->bytes_used;
+
+	/* FIXME: Would Uniprocessor benefit from recirc and MADV_FREE? */
+	if (rack->num_magazines == 1) { // Uniprocessor, single magazine, so no recirculation necessary
+		/* NOTHING */
+		return TRUE; // Caller must do SZONE_MAGAZINE_PTR_UNLOCK(tiny_mag_ptr)
+	} else if (DEPOT_MAGAZINE_INDEX != mag_index) {
+		// Emptiness discriminant
+		if (bytes_used < DENSITY_THRESHOLD(SMALL_REGION_PAYLOAD_BYTES)) {
+			/* Region has crossed threshold from density to sparsity. Mark it "suitable" on the
+			 * recirculation candidates list. */
+			node->recirc_suitable = TRUE;
+		} else {
+			/* After this free, we've found the region is still dense, so it must have been even more so before
+			 * the free. That implies the region is already correctly marked. Do nothing. */
+		}
+
+		// Has the entire magazine crossed the "emptiness threshold"? If so, transfer a region
+		// from this magazine to the Depot. Choose a region that itself has crossed the emptiness threshold (i.e
+		// is at least fraction "f" empty.) Such a region will be marked "suitable" on the recirculation list.
+
+		size_t a = small_mag_ptr->num_bytes_in_magazine;	// Total bytes allocated to this magazine
+		size_t u = small_mag_ptr->mag_num_bytes_in_objects; // In use (malloc'd) from this magaqzine
+
+		if (a - u > ((3 * SMALL_REGION_PAYLOAD_BYTES) / 2) && u < DENSITY_THRESHOLD(a)) {
+			return small_free_do_recirc_to_depot(rack, small_mag_ptr, mag_index);
+		}
+
+	} else {
+#if !CONFIG_AGGRESSIVE_MADVISE
+		// We are free'ing into the depot, so madvise as we do so unless we were madvising every incoming
+		// allocation anyway.
+		small_madvise_free_range_no_lock(rack, small_mag_ptr, region, freee, msize, headptr, headsize);
+#endif
+
+		if (0 < bytes_used || 0 < node->pinned_to_depot) {
+			/* Depot'd region is still live. Leave it in place on the Depot's recirculation list
+			 * so as to avoid thrashing between the Depot's free list and a magazines's free list
+			 * with detach_region/reattach_region */
+		} else {
+			/* Depot'd region is just now empty. Consider return to OS. */
+			region_t r_dealloc = small_free_try_depot_unmap_no_lock(rack, small_mag_ptr, node);
+			SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+			if (r_dealloc) {
+				mvm_deallocate_pages(r_dealloc, SMALL_REGION_SIZE, 0);
+			}
+			return FALSE; // Caller need not unlock
+		}
+	}
+	return TRUE; // Caller must do SZONE_MAGAZINE_PTR_UNLOCK(tiny_mag_ptr)
+}
+#endif // CONFIG_RECIRC_DEPOT
+
+static MALLOC_INLINE boolean_t
+small_free_no_lock(rack_t *rack, magazine_t *small_mag_ptr, mag_index_t mag_index, region_t region, void *ptr, msize_t msize)
+{
+	msize_t *meta_headers = SMALL_META_HEADER_FOR_PTR(ptr);
+	unsigned index = SMALL_META_INDEX_FOR_PTR(ptr);
+	size_t original_size = SMALL_BYTES_FOR_MSIZE(msize);
+	unsigned char *next_block = ((unsigned char *)ptr + original_size);
+	msize_t next_index = index + msize;
+
+	MALLOC_TRACE(TRACE_small_free, (uintptr_t)rack, (uintptr_t)small_mag_ptr, (uintptr_t)ptr, SMALL_BYTES_FOR_MSIZE(msize));
+
+#if CONFIG_AGGRESSIVE_MADVISE || CONFIG_RECIRC_DEPOT
+	void *original_ptr = ptr;
+#endif
+
+#if DEBUG_MALLOC
+	if (LOG(szone, ptr)) {
+		malloc_printf("in small_free_no_lock(), ptr=%p, msize=%d\n", ptr, msize);
+	}
+	if (!msize) {
+		szone_error(rack->debug_flags, 1, "trying to free small block that is too small", ptr, "in small_free_no_lock(), ptr=%p, msize=%d\n",
+					ptr, msize);
+	}
+#endif
+
+	// We try to coalesce this block with the preceeding one
+	if (index > 0 && (meta_headers[index - 1] & SMALL_IS_FREE)) {
+		msize_t previous_msize = meta_headers[index - 1] & ~SMALL_IS_FREE;
+		grain_t previous_index = index - previous_msize;
+
+		// Check if the metadata for the start of the region is also free.
+		if (meta_headers[previous_index] == (previous_msize | SMALL_IS_FREE)) {
+			void *previous_ptr = (void *)((uintptr_t)ptr - SMALL_BYTES_FOR_MSIZE(previous_msize));
+			free_list_t previous = small_free_list_find_by_ptr(rack, small_mag_ptr, previous_ptr, previous_msize);
+			small_free_list_remove_ptr(rack, small_mag_ptr, previous, previous_msize);
+			ptr = previous_ptr;
+			msize += previous_msize;
+			index -= previous_msize;
+		} else {
+			_os_set_crash_log_message("small free list metadata inconsistency (headers[previous] != previous size)");
+			__builtin_trap();
+		}
+	}
+
+	// Try to coalesce with this block with the next block
+	if ((next_block < SMALL_REGION_END(region)) && (meta_headers[next_index] & SMALL_IS_FREE)) {
+		msize_t next_msize = meta_headers[next_index] & ~SMALL_IS_FREE;
+		free_list_t next = small_free_list_find_by_ptr(rack, small_mag_ptr, next_block, next_msize);
+		small_free_list_remove_ptr(rack, small_mag_ptr, next, next_msize);
+		msize += next_msize;
+	}
+
+	if (rack->debug_flags & MALLOC_DO_SCRIBBLE) {
+		if (!msize) {
+			szone_error(rack->debug_flags, 1, "incorrect size information - block header was damaged", ptr, NULL);
+		} else {
+			memset(ptr, SCRABBLE_BYTE, SMALL_BYTES_FOR_MSIZE(msize));
+		}
+	}
+
+	free_list_t freee = small_free_list_add_ptr(rack, small_mag_ptr, ptr, msize);
+
+	// use original_size and not msize to avoid double counting the coalesced blocks
+	small_mag_ptr->mag_num_bytes_in_objects -= original_size;
+	small_mag_ptr->mag_num_objects--;
+
+	// Update this region's bytes in use count
+	region_trailer_t *node = REGION_TRAILER_FOR_SMALL_REGION(region);
+	size_t bytes_used = node->bytes_used - original_size;
+	node->bytes_used = (unsigned int)bytes_used;
+
+#if CONFIG_AGGRESSIVE_MADVISE
+	small_madvise_free_range_no_lock(rack, small_mag_ptr, region, freee, msize, original_ptr, original_size);
+#endif
+
+	// Caller must do SZONE_MAGAZINE_PTR_UNLOCK(tiny_mag_ptr) if this function
+	// returns TRUE.
+	boolean_t needs_unlock = TRUE;
+
+#if CONFIG_RECIRC_DEPOT
+	needs_unlock = small_free_try_recirc_to_depot(rack, small_mag_ptr, mag_index, region, freee, msize, original_ptr, original_size);
+#endif
+	return needs_unlock;
+}
+
+// Allocates from the last region or a freshly allocated region
+static void *
+small_malloc_from_region_no_lock(rack_t *rack,
+								 magazine_t *small_mag_ptr,
+								 mag_index_t mag_index,
+								 msize_t msize,
+								 void *aligned_address)
+{
+	void *ptr;
+
+	// Before anything we transform the mag_bytes_free_at_end or mag_bytes_free_at_start - if any - to a regular free block
+	/* FIXME: last_block needs to be coalesced with previous entry if free, <rdar://5462322> */
+	if (small_mag_ptr->mag_bytes_free_at_end || small_mag_ptr->mag_bytes_free_at_start) {
+		small_finalize_region(rack, small_mag_ptr);
+	}
+
+	// Tag the region at "aligned_address" as belonging to us,
+	// and so put it under the protection of the magazine lock we are holding.
+	// Do this before advertising "aligned_address" on the hash ring(!)
+	MAGAZINE_INDEX_FOR_SMALL_REGION(aligned_address) = mag_index;
+
+	// Insert the new region into the hash ring
+	rack_region_insert(rack, (region_t)aligned_address);
+
+	small_mag_ptr->mag_last_region = aligned_address;
+	BYTES_USED_FOR_SMALL_REGION(aligned_address) = SMALL_BYTES_FOR_MSIZE(msize);
+
+#if CONFIG_ASLR_INTERNAL
+	int offset_msize = malloc_entropy[1] & SMALL_ENTROPY_MASK;
+#if DEBUG_MALLOC
+	if (getenv("MallocASLRForce")) {
+		offset_msize = strtol(getenv("MallocASLRForce"), NULL, 0) & SMALL_ENTROPY_MASK;
+	}
+	if (getenv("MallocASLRPrint")) {
+		malloc_printf("Region: %p offset: %d\n", aligned_address, offset_msize);
+	}
+#endif
+#else
+	int offset_msize = 0;
+#endif
+	ptr = (void *)((uintptr_t)aligned_address + SMALL_BYTES_FOR_MSIZE(offset_msize));
+	small_meta_header_set_in_use(SMALL_META_HEADER_FOR_PTR(ptr), offset_msize, msize);
+	small_mag_ptr->mag_num_objects++;
+	small_mag_ptr->mag_num_bytes_in_objects += SMALL_BYTES_FOR_MSIZE(msize);
+	small_mag_ptr->num_bytes_in_magazine += SMALL_REGION_PAYLOAD_BYTES;
+
+	// add a big free block at the end
+	small_meta_header_set_in_use(SMALL_META_HEADER_FOR_PTR(ptr), offset_msize + msize, NUM_SMALL_BLOCKS - msize - offset_msize);
+	small_mag_ptr->mag_bytes_free_at_end = SMALL_BYTES_FOR_MSIZE(NUM_SMALL_BLOCKS - msize - offset_msize);
+
+#if CONFIG_ASLR_INTERNAL
+	// add a big free block at the start
+	small_mag_ptr->mag_bytes_free_at_start = SMALL_BYTES_FOR_MSIZE(offset_msize);
+	if (offset_msize) {
+		small_meta_header_set_in_use(SMALL_META_HEADER_FOR_PTR(ptr), 0, offset_msize);
+	}
+#else
+	small_mag_ptr->mag_bytes_free_at_start = 0;
+#endif
+
+	// connect to magazine as last node
+	recirc_list_splice_last(rack, small_mag_ptr, REGION_TRAILER_FOR_SMALL_REGION(aligned_address));
+
+	return ptr;
+}
+
+void *
+small_memalign(szone_t *szone, size_t alignment, size_t size, size_t span)
+{
+	if (size <= SMALL_THRESHOLD) {
+		// ensure block allocated by small does not have a tiny-possible size
+		size = SMALL_THRESHOLD + TINY_QUANTUM;
+		span = size + alignment - 1;
+	}
+
+	msize_t mspan = SMALL_MSIZE_FOR_BYTES(span + SMALL_QUANTUM - 1);
+	void *p = szone_malloc(szone, span); // avoid inlining small_malloc_should_clear(szone, mspan, 0);
+
+	if (NULL == p) {
+		return NULL;
+	}
+
+	size_t offset = ((uintptr_t)p) & (alignment - 1);	// p % alignment
+	size_t pad = (0 == offset) ? 0 : alignment - offset; // p + pad achieves desired alignment
+
+	msize_t msize = SMALL_MSIZE_FOR_BYTES(size + SMALL_QUANTUM - 1);
+	msize_t mpad = SMALL_MSIZE_FOR_BYTES(pad + SMALL_QUANTUM - 1);
+	msize_t mwaste = mspan - msize - mpad; // excess blocks
+
+	if (mpad > 0) {
+		void *q = (void *)(((uintptr_t)p) + pad);
+
+		// Mark q as block header and in-use, thus creating two blocks.
+		magazine_t *small_mag_ptr = mag_lock_zine_for_region_trailer(szone->small_rack.magazines,
+				REGION_TRAILER_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(p)),
+				MAGAZINE_INDEX_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(p)));
+		small_meta_header_set_in_use(SMALL_META_HEADER_FOR_PTR(p), SMALL_META_INDEX_FOR_PTR(p), mpad);
+		small_meta_header_set_in_use(SMALL_META_HEADER_FOR_PTR(q), SMALL_META_INDEX_FOR_PTR(q), msize + mwaste);
+		small_mag_ptr->mag_num_objects++;
+		SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+
+		// Give up mpad blocks beginning at p to the small free list
+		// region_t r = SMALL_REGION_FOR_PTR(p);
+		szone_free(szone, p); // avoid inlining free_small(szone, p, &r);
+
+		p = q; // advance p to the desired alignment
+	}
+	if (mwaste > 0) {
+		void *q = (void *)(((uintptr_t)p) + SMALL_BYTES_FOR_MSIZE(msize));
+		// Mark q as block header and in-use, thus creating two blocks.
+		magazine_t *small_mag_ptr = mag_lock_zine_for_region_trailer(szone->small_rack.magazines,
+				REGION_TRAILER_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(p)),
+				MAGAZINE_INDEX_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(p)));
+		small_meta_header_set_in_use(SMALL_META_HEADER_FOR_PTR(p), SMALL_META_INDEX_FOR_PTR(p), msize);
+		small_meta_header_set_in_use(SMALL_META_HEADER_FOR_PTR(q), SMALL_META_INDEX_FOR_PTR(q), mwaste);
+		small_mag_ptr->mag_num_objects++;
+		SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+
+		// Give up mwaste blocks beginning at q to the small free list
+		// region_t r = SMALL_REGION_FOR_PTR(q);
+		szone_free(szone, q); // avoid inlining free_small(szone, q, &r);
+	}
+
+	return p; // p has the desired size and alignment, and can later be free()'d
+}
+
+void *
+small_try_shrink_in_place(rack_t *rack, void *ptr, size_t old_size, size_t new_good_size)
+{
+	msize_t new_msize = SMALL_MSIZE_FOR_BYTES(new_good_size);
+	msize_t mshrinkage = SMALL_MSIZE_FOR_BYTES(old_size) - new_msize;
+
+	if (mshrinkage) {
+		void *q = (void *)((uintptr_t)ptr + SMALL_BYTES_FOR_MSIZE(new_msize));
+		magazine_t *small_mag_ptr = mag_lock_zine_for_region_trailer(rack->magazines,
+				REGION_TRAILER_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(ptr)),
+				MAGAZINE_INDEX_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(ptr)));
+
+		// Mark q as block header and in-use, thus creating two blocks.
+		small_meta_header_set_in_use(SMALL_META_HEADER_FOR_PTR(ptr), SMALL_META_INDEX_FOR_PTR(ptr), new_msize);
+		small_meta_header_set_in_use(SMALL_META_HEADER_FOR_PTR(q), SMALL_META_INDEX_FOR_PTR(q), mshrinkage);
+		small_mag_ptr->mag_num_objects++;
+
+		SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+		free_small(rack, q, SMALL_REGION_FOR_PTR(q), 0);
+	}
+
+	return ptr;
+}
+
+boolean_t
+small_try_realloc_in_place(rack_t *rack, void *ptr, size_t old_size, size_t new_size)
+{
+	// returns 1 on success
+	msize_t *meta_headers = SMALL_META_HEADER_FOR_PTR(ptr);
+	unsigned index;
+	msize_t old_msize, new_msize;
+	unsigned next_index;
+	void *next_block;
+	msize_t next_msize_and_free;
+	boolean_t is_free;
+	msize_t next_msize, leftover_msize;
+	void *leftover;
+
+	index = SMALL_META_INDEX_FOR_PTR(ptr);
+	old_msize = SMALL_MSIZE_FOR_BYTES(old_size);
+	new_msize = SMALL_MSIZE_FOR_BYTES(new_size + SMALL_QUANTUM - 1);
+	next_index = index + old_msize;
+
+	if (next_index >= NUM_SMALL_BLOCKS) {
+		return 0;
+	}
+	next_block = (char *)ptr + old_size;
+
+#if DEBUG_MALLOC
+	if ((uintptr_t)next_block & (SMALL_QUANTUM - 1)) {
+		szone_error(rack->debug_flags, 1, "internal invariant broken in realloc(next_block)", next_block, NULL);
+	}
+	if (meta_headers[index] != old_msize) {
+		malloc_printf("*** small_try_realloc_in_place incorrect old %d %d\n", meta_headers[index], old_msize);
+	}
+#endif
+
+	magazine_t *small_mag_ptr = mag_lock_zine_for_region_trailer(rack->magazines,
+			REGION_TRAILER_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(ptr)),
+			MAGAZINE_INDEX_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(ptr)));
+	if (DEPOT_MAGAZINE_INDEX == MAGAZINE_INDEX_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(ptr))) {
+		SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+		return 0;
+	}
+
+	/*
+	 * Look for a free block immediately afterwards.  If it's large enough, we can consume (part of)
+	 * it.
+	 */
+	next_msize_and_free = meta_headers[next_index];
+	is_free = next_msize_and_free & SMALL_IS_FREE;
+	if (!is_free) {
+		SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+		return 0; // next_block is in use;
+	}
+
+	next_msize = next_msize_and_free & ~SMALL_IS_FREE;
+	if (old_msize + next_msize < new_msize) {
+		SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+		return 0; // even with next block, not enough
+	}
+
+	// The following block is big enough; pull it from its freelist and chop off enough to satisfy
+	// our needs.
+	free_list_t freee = small_free_list_find_by_ptr(rack, small_mag_ptr, next_block, next_msize);
+	small_free_list_remove_ptr(rack, small_mag_ptr, freee, next_msize);
+	small_meta_header_set_middle(meta_headers, next_index);
+	leftover_msize = old_msize + next_msize - new_msize;
+	if (leftover_msize) {
+		/* there's some left, so put the remainder back */
+		leftover = (unsigned char *)ptr + SMALL_BYTES_FOR_MSIZE(new_msize);
+
+		small_free_list_add_ptr(rack, small_mag_ptr, leftover, leftover_msize);
+	}
+#if DEBUG_MALLOC
+	if (SMALL_BYTES_FOR_MSIZE(new_msize) > szone->large_threshold) {
+		malloc_printf("*** realloc in place for %p exceeded msize=%d\n", new_msize);
+	}
+#endif
+	small_meta_header_set_in_use(meta_headers, index, new_msize);
+#if DEBUG_MALLOC
+	if (LOG(szone, ptr)) {
+		malloc_printf("in small_try_realloc_in_place(), ptr=%p, msize=%d\n", ptr, *SMALL_METADATA_FOR_PTR(ptr));
+	}
+#endif
+	small_mag_ptr->mag_num_bytes_in_objects += SMALL_BYTES_FOR_MSIZE(new_msize - old_msize);
+
+	// Update this region's bytes in use count
+	region_trailer_t *node = REGION_TRAILER_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(ptr));
+	size_t bytes_used = node->bytes_used + SMALL_BYTES_FOR_MSIZE(new_msize - old_msize);
+	node->bytes_used = (unsigned int)bytes_used;
+
+	// Emptiness discriminant
+	if (bytes_used < DENSITY_THRESHOLD(SMALL_REGION_PAYLOAD_BYTES)) {
+		/* After this reallocation the region is still sparse, so it must have been even more so before
+		 * the reallocation. That implies the region is already correctly marked. Do nothing. */
+	} else {
+		/* Region has crossed threshold from sparsity to density. Mark it not "suitable" on the
+		 * recirculation candidates list. */
+		node->recirc_suitable = FALSE;
+	}
+
+	SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+	CHECK(szone, __PRETTY_FUNCTION__);
+	return 1;
+}
+
+boolean_t
+small_check_region(rack_t *rack, region_t region)
+{
+	unsigned char *ptr = SMALL_REGION_ADDRESS(region);
+	msize_t *meta_headers = SMALL_META_HEADER_FOR_PTR(ptr);
+	unsigned char *region_end = SMALL_REGION_END(region);
+	msize_t prev_free = 0;
+	unsigned index;
+	msize_t msize_and_free;
+	msize_t msize;
+	free_list_t free_head, previous, next;
+	msize_t *follower;
+	mag_index_t mag_index = MAGAZINE_INDEX_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(ptr));
+	magazine_t *small_mag_ptr = &(rack->magazines[mag_index]);
+
+	// Assumes locked
+	CHECK_MAGAZINE_PTR_LOCKED(szone, small_mag_ptr, __PRETTY_FUNCTION__);
+
+	if (region == small_mag_ptr->mag_last_region) {
+		ptr += small_mag_ptr->mag_bytes_free_at_start;
+		region_end -= small_mag_ptr->mag_bytes_free_at_end;
+	}
+
+	while (ptr < region_end) {
+		index = SMALL_META_INDEX_FOR_PTR(ptr);
+		msize_and_free = meta_headers[index];
+		if (!(msize_and_free & SMALL_IS_FREE)) {
+			// block is in use
+			msize = msize_and_free;
+			if (!msize) {
+				malloc_printf("*** invariant broken: null msize ptr=%p num_small_regions=%d end=%p\n", ptr,
+							  rack->num_regions, region_end);
+				return 0;
+			}
+#if !CONFIG_RELAXED_INVARIANT_CHECKS
+			if (SMALL_BYTES_FOR_MSIZE(msize) > szone->large_threshold) {
+				malloc_printf("*** invariant broken for %p this small msize=%d - size is too large\n", ptr, msize_and_free);
+				return 0;
+			}
+#endif // CONFIG_RELAXED_INVARIANT_CHECKS
+			ptr += SMALL_BYTES_FOR_MSIZE(msize);
+			prev_free = 0;
+		} else {
+			// free pointer
+			msize = msize_and_free & ~SMALL_IS_FREE;
+			free_head = (free_list_t){ .p = ptr };
+			follower = (msize_t *)FOLLOWING_SMALL_PTR(ptr, msize);
+			if (!msize) {
+				malloc_printf("*** invariant broken for free block %p this msize=%d\n", ptr, msize);
+				return 0;
+			}
+#if !CONFIG_RELAXED_INVARIANT_CHECKS
+			if (prev_free) {
+				malloc_printf("*** invariant broken for %p (2 free in a row)\n", ptr);
+				return 0;
+			}
+#endif
+
+			// <rdar://problem/24680189> check for possible OOB entry if needed
+			if (small_needs_oob_free_entry(ptr, msize)) {
+				oob_free_entry_t oob = small_oob_free_find_ptr(ptr, msize);
+				if (oob) {
+					free_head.oob = oob;
+				}
+			}
+
+			previous = small_free_list_get_previous(rack, free_head);
+			next = small_free_list_get_next(rack, free_head);
+			if (previous.p && !SMALL_PTR_IS_FREE(small_free_list_get_ptr(rack, previous))) {
+				malloc_printf("*** invariant broken for %p (previous %p is not a free pointer)\n", ptr, small_free_list_get_ptr(rack, previous));
+				return 0;
+			}
+			if (next.p && !SMALL_PTR_IS_FREE(small_free_list_get_ptr(rack, next))) {
+				malloc_printf("*** invariant broken for %p (next %p is not a free pointer)\n", ptr, small_free_list_get_ptr(rack, next));
+				return 0;
+			}
+			if (SMALL_PREVIOUS_MSIZE(follower) != msize) {
+				malloc_printf(
+							  "*** invariant broken for small free %p followed by %p in region [%p-%p] "
+							  "(end marker incorrect) should be %d; in fact %d\n",
+							  ptr, follower, SMALL_REGION_ADDRESS(region), region_end, msize, SMALL_PREVIOUS_MSIZE(follower));
+				return 0;
+			}
+			ptr = (unsigned char *)follower;
+			prev_free = SMALL_IS_FREE;
+		}
+	}
+	return 1;
+}
+
+kern_return_t
+small_in_use_enumerator(task_t task,
+						void *context,
+						unsigned type_mask,
+						szone_t *szone,
+						memory_reader_t reader,
+						vm_range_recorder_t recorder)
+{
+	size_t num_regions;
+	size_t index;
+	region_t *regions;
+	vm_range_t buffer[MAX_RECORDER_BUFFER];
+	unsigned count = 0;
+	kern_return_t err;
+	region_t region;
+	vm_range_t range;
+	vm_range_t admin_range;
+	vm_range_t ptr_range;
+	unsigned char *mapped_region;
+	msize_t *block_header;
+	unsigned block_index;
+	unsigned block_limit;
+	msize_t msize_and_free;
+	msize_t msize;
+	magazine_t *small_mag_base = NULL;
+
+	region_hash_generation_t *srg_ptr;
+	err = reader(task, (vm_address_t)szone->small_rack.region_generation, sizeof(region_hash_generation_t), (void **)&srg_ptr);
+	if (err) {
+		return err;
+	}
+
+	num_regions = srg_ptr->num_regions_allocated;
+	err = reader(task, (vm_address_t)srg_ptr->hashed_regions, sizeof(region_t) * num_regions, (void **)&regions);
+	if (err) {
+		return err;
+	}
+
+	if (type_mask & MALLOC_PTR_IN_USE_RANGE_TYPE) {
+		// Map in all active magazines. Do this outside the iteration over regions.
+		err = reader(task, (vm_address_t)(szone->small_rack.magazines), szone->small_rack.num_magazines * sizeof(magazine_t),
+					 (void **)&small_mag_base);
+		if (err) {
+			return err;
+		}
+	}
+
+	for (index = 0; index < num_regions; ++index) {
+		region = regions[index];
+		if (HASHRING_OPEN_ENTRY != region && HASHRING_REGION_DEALLOCATED != region) {
+			range.address = (vm_address_t)SMALL_REGION_ADDRESS(region);
+			range.size = SMALL_REGION_SIZE;
+			if (type_mask & MALLOC_ADMIN_REGION_RANGE_TYPE) {
+				admin_range.address = range.address + SMALL_METADATA_START;
+				admin_range.size = SMALL_METADATA_SIZE;
+				recorder(task, context, MALLOC_ADMIN_REGION_RANGE_TYPE, &admin_range, 1);
+			}
+			if (type_mask & (MALLOC_PTR_REGION_RANGE_TYPE | MALLOC_ADMIN_REGION_RANGE_TYPE)) {
+				ptr_range.address = range.address;
+				ptr_range.size = NUM_SMALL_BLOCKS * SMALL_QUANTUM;
+				recorder(task, context, MALLOC_PTR_REGION_RANGE_TYPE, &ptr_range, 1);
+			}
+			if (type_mask & MALLOC_PTR_IN_USE_RANGE_TYPE) {
+				void *mag_last_free;
+				vm_address_t mag_last_free_ptr = 0;
+				msize_t mag_last_free_msize = 0;
+
+				err = reader(task, range.address, range.size, (void **)&mapped_region);
+				if (err) {
+					return err;
+				}
+
+				mag_index_t mag_index = MAGAZINE_INDEX_FOR_SMALL_REGION(mapped_region);
+				magazine_t *small_mag_ptr = small_mag_base + mag_index;
+
+				if (DEPOT_MAGAZINE_INDEX != mag_index) {
+					mag_last_free = small_mag_ptr->mag_last_free;
+					if (mag_last_free) {
+						mag_last_free_ptr = (uintptr_t)mag_last_free & ~(SMALL_QUANTUM - 1);
+						mag_last_free_msize = (uintptr_t)mag_last_free & (SMALL_QUANTUM - 1);
+					}
+				} else {
+					for (mag_index = 0; mag_index < szone->small_rack.num_magazines; mag_index++) {
+						if ((void *)range.address == (small_mag_base + mag_index)->mag_last_free_rgn) {
+							mag_last_free = (small_mag_base + mag_index)->mag_last_free;
+							if (mag_last_free) {
+								mag_last_free_ptr = (uintptr_t)mag_last_free & ~(SMALL_QUANTUM - 1);
+								mag_last_free_msize = (uintptr_t)mag_last_free & (SMALL_QUANTUM - 1);
+							}
+						}
+					}
+				}
+
+				block_header = (msize_t *)(mapped_region + SMALL_METADATA_START + sizeof(region_trailer_t));
+				block_index = 0;
+				block_limit = NUM_SMALL_BLOCKS;
+				if (region == small_mag_ptr->mag_last_region) {
+					block_index += SMALL_MSIZE_FOR_BYTES(small_mag_ptr->mag_bytes_free_at_start);
+					block_limit -= SMALL_MSIZE_FOR_BYTES(small_mag_ptr->mag_bytes_free_at_end);
+				}
+				while (block_index < block_limit) {
+					msize_and_free = block_header[block_index];
+					msize = msize_and_free & ~SMALL_IS_FREE;
+					if (!(msize_and_free & SMALL_IS_FREE) &&
+						range.address + SMALL_BYTES_FOR_MSIZE(block_index) != mag_last_free_ptr) {
+						// Block in use
+						buffer[count].address = range.address + SMALL_BYTES_FOR_MSIZE(block_index);
+						buffer[count].size = SMALL_BYTES_FOR_MSIZE(msize);
+						count++;
+						if (count >= MAX_RECORDER_BUFFER) {
+							recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE, buffer, count);
+							count = 0;
+						}
+					}
+
+					if (!msize) {
+						return KERN_FAILURE; // Somethings amiss. Avoid looping at this block_index.
+					}
+					block_index += msize;
+				}
+				if (count) {
+					recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE, buffer, count);
+					count = 0;
+				}
+			}
+		}
+	}
+	return 0;
+}
+
+static void *
+small_malloc_from_free_list(rack_t *rack, magazine_t *small_mag_ptr, mag_index_t mag_index, msize_t msize)
+{
+	msize_t this_msize;
+	grain_t slot = SMALL_FREE_SLOT_FOR_MSIZE(rack, msize);
+	free_list_t *free_list = small_mag_ptr->mag_free_list;
+	free_list_t *the_slot = free_list + slot;
+	free_list_t *limit;
+	unsigned bitmap;
+	msize_t leftover_msize;
+	void *leftover_ptr;
+	void *ptr;
+
+	// Assumes we've locked the region
+	CHECK_MAGAZINE_PTR_LOCKED(szone, small_mag_ptr, __PRETTY_FUNCTION__);
+
+	// Look for an exact match by checking the freelist for this msize.
+	//
+	if (small_free_list_get_ptr(rack, *the_slot)) {
+		ptr = small_free_list_get_ptr(rack, *the_slot);
+		this_msize = msize;
+		small_free_list_remove_ptr(rack, small_mag_ptr, *the_slot, msize);
+		goto return_small_alloc;
+	}
+
+	// Mask off the bits representing slots holding free blocks smaller than
+	// the size we need.  If there are no larger free blocks, try allocating
+	// from the free space at the end of the small region.
+	if (rack->debug_flags & MALLOC_EXTENDED_SMALL_SLOTS) {
+		// BITMAPN_CTZ implementation
+		unsigned idx = slot >> 5;
+		bitmap = 0;
+		unsigned mask = ~((1 << (slot & 31)) - 1);
+		for (; idx < SMALL_BITMAP_WORDS; ++idx) {
+			bitmap = small_mag_ptr->mag_bitmap[idx] & mask;
+			if (bitmap != 0) {
+				break;
+			}
+			mask = ~0U;
+		}
+		// Check for fallthrough: No bits set in bitmap
+		if ((bitmap == 0) && (idx == SMALL_BITMAP_WORDS)) {
+			goto try_small_from_end;
+		}
+
+		// Start looking at the first set bit, plus 32 bits for every word of
+		// zeroes or entries that were too small.
+		slot = BITMAP32_CTZ((&bitmap)) + (idx * 32);
+	} else {
+		bitmap = small_mag_ptr->mag_bitmap[0] & ~((1 << slot) - 1);
+		if (!bitmap) {
+			goto try_small_from_end;
+		}
+
+		slot = BITMAP32_CTZ((&bitmap));
+	}
+	// FIXME: Explain use of - 1 here, last slot has special meaning
+	limit = free_list + SMALL_FREE_SLOT_COUNT(rack) - 1;
+	free_list += slot;
+
+	// Attempt to pull off the free_list slot that we now think is full.
+	if ((ptr = small_free_list_get_ptr(rack, *free_list))) {
+		this_msize = SMALL_PTR_SIZE(ptr);
+		small_free_list_remove_ptr(rack, small_mag_ptr, *free_list, this_msize);
+		goto add_leftover_and_proceed;
+	}
+
+#if DEBUG_MALLOC
+	malloc_printf("in small_malloc_from_free_list(), mag_bitmap out of sync, slot=%d\n", slot);
+#endif
+
+try_small_from_end:
+	// Let's see if we can use small_mag_ptr->mag_bytes_free_at_end
+	if (small_mag_ptr->mag_bytes_free_at_end >= SMALL_BYTES_FOR_MSIZE(msize)) {
+		ptr = SMALL_REGION_END(small_mag_ptr->mag_last_region) - small_mag_ptr->mag_bytes_free_at_end;
+		small_mag_ptr->mag_bytes_free_at_end -= SMALL_BYTES_FOR_MSIZE(msize);
+		if (small_mag_ptr->mag_bytes_free_at_end) {
+			// let's mark this block as in use to serve as boundary
+			small_meta_header_set_in_use(SMALL_META_HEADER_FOR_PTR(ptr),
+										 SMALL_META_INDEX_FOR_PTR((unsigned char *)ptr + SMALL_BYTES_FOR_MSIZE(msize)),
+										 SMALL_MSIZE_FOR_BYTES(small_mag_ptr->mag_bytes_free_at_end));
+		}
+		this_msize = msize;
+		goto return_small_alloc;
+	}
+#if CONFIG_ASLR_INTERNAL
+	// Try from start if nothing left at end
+	if (small_mag_ptr->mag_bytes_free_at_start >= SMALL_BYTES_FOR_MSIZE(msize)) {
+		ptr = SMALL_REGION_ADDRESS(small_mag_ptr->mag_last_region) + small_mag_ptr->mag_bytes_free_at_start -
+				SMALL_BYTES_FOR_MSIZE(msize);
+		small_mag_ptr->mag_bytes_free_at_start -= SMALL_BYTES_FOR_MSIZE(msize);
+		if (small_mag_ptr->mag_bytes_free_at_start) {
+			// let's mark this block as in use to serve as boundary
+			small_meta_header_set_in_use(
+										 SMALL_META_HEADER_FOR_PTR(ptr), 0, SMALL_MSIZE_FOR_BYTES(small_mag_ptr->mag_bytes_free_at_start));
+		}
+		this_msize = msize;
+		goto return_small_alloc;
+	}
+#endif
+	return NULL;
+
+add_leftover_and_proceed:
+	if (this_msize > msize) {
+		leftover_msize = this_msize - msize;
+		leftover_ptr = (unsigned char *)ptr + SMALL_BYTES_FOR_MSIZE(msize);
+#if DEBUG_MALLOC
+		if (LOG(szone, ptr)) {
+			malloc_printf("in small_malloc_from_free_list(), adding leftover ptr=%p, this_msize=%d\n", ptr, this_msize);
+		}
+#endif
+		small_free_list_add_ptr(rack, small_mag_ptr, leftover_ptr, leftover_msize);
+		this_msize = msize;
+	}
+
+return_small_alloc:
+	small_mag_ptr->mag_num_objects++;
+	small_mag_ptr->mag_num_bytes_in_objects += SMALL_BYTES_FOR_MSIZE(this_msize);
+
+	// Update this region's bytes in use count
+	region_trailer_t *node = REGION_TRAILER_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(ptr));
+	size_t bytes_used = node->bytes_used + SMALL_BYTES_FOR_MSIZE(this_msize);
+	node->bytes_used = (unsigned int)bytes_used;
+
+	// Emptiness discriminant
+	if (bytes_used < DENSITY_THRESHOLD(SMALL_REGION_PAYLOAD_BYTES)) {
+		/* After this allocation the region is still sparse, so it must have been even more so before
+		 * the allocation. That implies the region is already correctly marked. Do nothing. */
+	} else {
+		/* Region has crossed threshold from sparsity to density. Mark in not "suitable" on the
+		 * recirculation candidates list. */
+		node->recirc_suitable = FALSE;
+	}
+#if DEBUG_MALLOC
+	if (LOG(szone, ptr)) {
+		malloc_printf("in small_malloc_from_free_list(), ptr=%p, this_msize=%d, msize=%d\n", ptr, this_msize, msize);
+	}
+#endif
+	small_meta_header_set_in_use(SMALL_META_HEADER_FOR_PTR(ptr), SMALL_META_INDEX_FOR_PTR(ptr), this_msize);
+	return ptr;
+}
+
+void *
+small_malloc_should_clear(rack_t *rack, msize_t msize, boolean_t cleared_requested)
+{
+	void *ptr;
+	mag_index_t mag_index = mag_get_thread_index() % rack->num_magazines;
+	magazine_t *small_mag_ptr = &(rack->magazines[mag_index]);
+
+	MALLOC_TRACE(TRACE_small_malloc, (uintptr_t)rack, SMALL_BYTES_FOR_MSIZE(msize), (uintptr_t)small_mag_ptr, cleared_requested);
+
+	SZONE_MAGAZINE_PTR_LOCK(small_mag_ptr);
+
+#if CONFIG_SMALL_CACHE
+	ptr = (void *)small_mag_ptr->mag_last_free;
+
+	if ((((uintptr_t)ptr) & (SMALL_QUANTUM - 1)) == msize) {
+		// we have a winner
+		small_mag_ptr->mag_last_free = NULL;
+		small_mag_ptr->mag_last_free_rgn = NULL;
+		SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+		CHECK(szone, __PRETTY_FUNCTION__);
+		ptr = (void *)((uintptr_t)ptr & ~(SMALL_QUANTUM - 1));
+		if (cleared_requested) {
+			memset(ptr, 0, SMALL_BYTES_FOR_MSIZE(msize));
+		}
+		return ptr;
+	}
+#endif /* CONFIG_SMALL_CACHE */
+
+	while (1) {
+		ptr = small_malloc_from_free_list(rack, small_mag_ptr, mag_index, msize);
+		if (ptr) {
+			SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+			CHECK(szone, __PRETTY_FUNCTION__);
+			if (cleared_requested) {
+				memset(ptr, 0, SMALL_BYTES_FOR_MSIZE(msize));
+			}
+			return ptr;
+		}
+
+		if (small_get_region_from_depot(rack, small_mag_ptr, mag_index, msize)) {
+			ptr = small_malloc_from_free_list(rack, small_mag_ptr, mag_index, msize);
+			if (ptr) {
+				SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+				CHECK(szone, __PRETTY_FUNCTION__);
+				if (cleared_requested) {
+					memset(ptr, 0, SMALL_BYTES_FOR_MSIZE(msize));
+				}
+				return ptr;
+			}
+		}
+
+		// The magazine is exhausted. A new region (heap) must be allocated to satisfy this call to malloc().
+		// The allocation, an mmap() system call, will be performed outside the magazine spin locks by the first
+		// thread that suffers the exhaustion. That thread sets "alloc_underway" and enters a critical section.
+		// Threads arriving here later are excluded from the critical section, yield the CPU, and then retry the
+		// allocation. After some time the magazine is resupplied, the original thread leaves with its allocation,
+		// and retry-ing threads succeed in the code just above.
+		if (!small_mag_ptr->alloc_underway) {
+			void *fresh_region;
+
+			// time to create a new region (do this outside the magazine lock)
+			small_mag_ptr->alloc_underway = TRUE;
+			OSMemoryBarrier();
+			SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+			fresh_region = mvm_allocate_pages_securely(SMALL_REGION_SIZE, SMALL_BLOCKS_ALIGN, VM_MEMORY_MALLOC_SMALL, rack->debug_flags);
+			SZONE_MAGAZINE_PTR_LOCK(small_mag_ptr);
+
+			// DTrace USDT Probe
+			MAGMALLOC_ALLOCREGION(SMALL_SZONE_FROM_RACK(rack), (int)mag_index, fresh_region, SMALL_REGION_SIZE);
+
+			if (!fresh_region) { // out of memory!
+				small_mag_ptr->alloc_underway = FALSE;
+				OSMemoryBarrier();
+				SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+				return NULL;
+			}
+
+			ptr = small_malloc_from_region_no_lock(rack, small_mag_ptr, mag_index, msize, fresh_region);
+
+			// we don't clear because this freshly allocated space is pristine
+			small_mag_ptr->alloc_underway = FALSE;
+			OSMemoryBarrier();
+			SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+			CHECK(szone, __PRETTY_FUNCTION__);
+			return ptr;
+		} else {
+			SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+			yield();
+			SZONE_MAGAZINE_PTR_LOCK(small_mag_ptr);
+		}
+	}
+	/* NOTREACHED */
+}
+
+size_t
+small_size(rack_t *rack, const void *ptr)
+{
+	if (small_region_for_ptr_no_lock(rack, ptr)) {
+		if (SMALL_META_INDEX_FOR_PTR(ptr) >= NUM_SMALL_BLOCKS) {
+			return 0;
+		}
+		msize_t msize_and_free = *SMALL_METADATA_FOR_PTR(ptr);
+		if (msize_and_free & SMALL_IS_FREE) {
+			return 0;
+		}
+#if CONFIG_SMALL_CACHE
+		{
+			mag_index_t mag_index = MAGAZINE_INDEX_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(ptr));
+			if (DEPOT_MAGAZINE_INDEX != mag_index) {
+				magazine_t *small_mag_ptr = &(rack->magazines[mag_index]);
+
+				if (ptr == (void *)((uintptr_t)(small_mag_ptr->mag_last_free) & ~(SMALL_QUANTUM - 1))) {
+					return 0;
+				}
+			} else {
+				for (mag_index = 0; mag_index < rack->num_magazines; mag_index++) {
+					magazine_t *small_mag_ptr = &(rack->magazines[mag_index]);
+
+					if (ptr == (void *)((uintptr_t)(small_mag_ptr->mag_last_free) & ~(SMALL_QUANTUM - 1))) {
+						return 0;
+					}
+				}
+			}
+		}
+#endif
+		return SMALL_BYTES_FOR_MSIZE(msize_and_free);
+	}
+
+	return 0;
+}
+
+static MALLOC_NOINLINE void
+free_small_botch(rack_t *rack, void *ptr)
+{
+	mag_index_t mag_index = MAGAZINE_INDEX_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(ptr));
+	magazine_t *small_mag_ptr = &(rack->magazines[mag_index]);
+	SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+	szone_error(rack->debug_flags, 1, "double free", ptr, NULL);
+}
+
+void
+free_small(rack_t *rack, void *ptr, region_t small_region, size_t known_size)
+{
+	msize_t msize;
+	mag_index_t mag_index = MAGAZINE_INDEX_FOR_SMALL_REGION(SMALL_REGION_FOR_PTR(ptr));
+	magazine_t *small_mag_ptr = &(rack->magazines[mag_index]);
+
+	// ptr is known to be in small_region
+	if (known_size) {
+		msize = SMALL_MSIZE_FOR_BYTES(known_size + SMALL_QUANTUM - 1);
+	} else {
+		msize = SMALL_PTR_SIZE(ptr);
+		if (SMALL_PTR_IS_FREE(ptr)) {
+			free_small_botch(rack, ptr);
+			return;
+		}
+	}
+
+	SZONE_MAGAZINE_PTR_LOCK(small_mag_ptr);
+
+#if CONFIG_SMALL_CACHE
+	// Depot does not participate in CONFIG_SMALL_CACHE since it can't be directly malloc()'d
+	if (DEPOT_MAGAZINE_INDEX != mag_index) {
+		void *ptr2 = small_mag_ptr->mag_last_free; // Might be NULL
+		region_t rgn2 = small_mag_ptr->mag_last_free_rgn;
+
+		/* check that we don't already have this pointer in the cache */
+		if (ptr == (void *)((uintptr_t)ptr2 & ~(SMALL_QUANTUM - 1))) {
+			free_small_botch(rack, ptr);
+			return;
+		}
+
+		if ((rack->debug_flags & MALLOC_DO_SCRIBBLE) && msize) {
+			memset(ptr, SCRABBLE_BYTE, SMALL_BYTES_FOR_MSIZE(msize));
+		}
+
+		small_mag_ptr->mag_last_free = (void *)(((uintptr_t)ptr) | msize);
+		small_mag_ptr->mag_last_free_rgn = small_region;
+
+		if (!ptr2) {
+			SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+			CHECK(szone, __PRETTY_FUNCTION__);
+			return;
+		}
+
+		msize = (uintptr_t)ptr2 & (SMALL_QUANTUM - 1);
+		ptr = (void *)(((uintptr_t)ptr2) & ~(SMALL_QUANTUM - 1));
+		small_region = rgn2;
+	}
+#endif /* CONFIG_SMALL_CACHE */
+
+	// Now in the time it took to acquire the lock, the region may have migrated
+	// from one magazine to another. I.e. trailer->mag_index is volatile.
+	// In which case the magazine lock we obtained (namely magazines[mag_index].mag_lock)
+	// is stale. If so, keep on tryin' ...
+	region_trailer_t *trailer = REGION_TRAILER_FOR_SMALL_REGION(small_region);
+	mag_index_t refreshed_index;
+
+	while (mag_index != (refreshed_index = trailer->mag_index)) { // Note assignment
+
+		SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+
+		mag_index = refreshed_index;
+		small_mag_ptr = &(rack->magazines[mag_index]);
+		SZONE_MAGAZINE_PTR_LOCK(small_mag_ptr);
+	}
+
+	if (small_free_no_lock(rack, small_mag_ptr, mag_index, small_region, ptr, msize)) {
+		SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+	}
+
+	CHECK(szone, __PRETTY_FUNCTION__);
+}
+
+void
+print_small_free_list(rack_t *rack)
+{
+	free_list_t ptr;
+	_SIMPLE_STRING b = _simple_salloc();
+	mag_index_t mag_index;
+
+	if (b) {
+		_simple_sappend(b, "small free sizes:\n");
+		for (mag_index = -1; mag_index < rack->num_magazines; mag_index++) {
+			grain_t slot = 0;
+			_simple_sprintf(b, "\tMagazine %d: ", mag_index);
+			while (slot < SMALL_FREE_SLOT_COUNT(rack)) {
+				ptr = rack->magazines[mag_index].mag_free_list[slot];
+				if (small_free_list_get_ptr(rack, ptr)) {
+					_simple_sprintf(b, "%s%y[%d]; ", (slot == SMALL_FREE_SLOT_COUNT(rack) - 1) ? ">=" : "", (slot + 1) * SMALL_QUANTUM,
+									small_free_list_count(rack, ptr));
+				}
+				slot++;
+			}
+			_simple_sappend(b, "\n");
+		}
+		_malloc_printf(MALLOC_PRINTF_NOLOG | MALLOC_PRINTF_NOPREFIX, "%s\n", _simple_string(b));
+		_simple_sfree(b);
+	}
+}
+
+void
+print_small_region(szone_t *szone, boolean_t verbose, region_t region, size_t bytes_at_start, size_t bytes_at_end)
+{
+	unsigned counts[1024];
+	unsigned in_use = 0;
+	uintptr_t start = (uintptr_t)SMALL_REGION_ADDRESS(region);
+	uintptr_t current = start + bytes_at_start;
+	uintptr_t limit = (uintptr_t)SMALL_REGION_END(region) - bytes_at_end;
+	msize_t msize_and_free;
+	msize_t msize;
+	unsigned ci;
+	_SIMPLE_STRING b;
+	uintptr_t pgTot = 0;
+
+	if (region == HASHRING_REGION_DEALLOCATED) {
+		if ((b = _simple_salloc()) != NULL) {
+			_simple_sprintf(b, "Small region [unknown address] was returned to the OS\n");
+			_malloc_printf(MALLOC_PRINTF_NOLOG | MALLOC_PRINTF_NOPREFIX, "%s\n", _simple_string(b));
+			_simple_sfree(b);
+		}
+		return;
+	}
+
+	memset(counts, 0, sizeof(counts));
+	while (current < limit) {
+		msize_and_free = *SMALL_METADATA_FOR_PTR(current);
+		msize = msize_and_free & ~SMALL_IS_FREE;
+		if (!msize) {
+			malloc_printf("*** error with %p: msize=%d\n", (void *)current, (unsigned)msize);
+			break;
+		}
+		if (!(msize_and_free & SMALL_IS_FREE)) {
+			// block in use
+			if (msize < 1024) {
+				counts[msize]++;
+			}
+			in_use++;
+		} else {
+			uintptr_t pgLo = round_page_quanta(current + sizeof(free_list_t) + sizeof(msize_t));
+			uintptr_t pgHi = trunc_page_quanta(current + SMALL_BYTES_FOR_MSIZE(msize) - sizeof(msize_t));
+
+			if (pgLo < pgHi) {
+				pgTot += (pgHi - pgLo);
+			}
+		}
+		current += SMALL_BYTES_FOR_MSIZE(msize);
+	}
+	if ((b = _simple_salloc()) != NULL) {
+		_simple_sprintf(b, "Small region [%p-%p, %y] \t", (void *)start, SMALL_REGION_END(region), (int)SMALL_REGION_SIZE);
+		_simple_sprintf(b, "Magazine=%d \t", MAGAZINE_INDEX_FOR_SMALL_REGION(region));
+		_simple_sprintf(b, "Allocations in use=%d \t Bytes in use=%ly \t", in_use, BYTES_USED_FOR_SMALL_REGION(region));
+		if (bytes_at_end || bytes_at_start) {
+			_simple_sprintf(b, "Untouched=%ly ", bytes_at_end + bytes_at_start);
+		}
+		if (DEPOT_MAGAZINE_INDEX == MAGAZINE_INDEX_FOR_SMALL_REGION(region)) {
+			_simple_sprintf(b, "Advised MADV_FREE=%ly", pgTot);
+		} else {
+			_simple_sprintf(b, "Fragments subject to reclamation=%ly", pgTot);
+		}
+		if (verbose && in_use) {
+			_simple_sappend(b, "\n\tSizes in use: ");
+			for (ci = 0; ci < 1024; ci++) {
+				if (counts[ci]) {
+					_simple_sprintf(b, "%d[%d] ", SMALL_BYTES_FOR_MSIZE(ci), counts[ci]);
+				}
+			}
+		}
+		_malloc_printf(MALLOC_PRINTF_NOLOG | MALLOC_PRINTF_NOPREFIX, "%s\n", _simple_string(b));
+		_simple_sfree(b);
+	}
+}
+
+boolean_t
+small_free_list_check(rack_t *rack, grain_t slot)
+{
+	mag_index_t mag_index;
+
+	for (mag_index = -1; mag_index < rack->num_magazines; mag_index++) {
+		magazine_t *small_mag_ptr = &(rack->magazines[mag_index]);
+		SZONE_MAGAZINE_PTR_LOCK(small_mag_ptr);
+
+		unsigned count = 0;
+		free_list_t current = rack->magazines[mag_index].mag_free_list[slot];
+		free_list_t previous = (free_list_t){ .p = NULL };
+		msize_t msize_and_free;
+		void *ptr = NULL;
+
+		while ((ptr = small_free_list_get_ptr(rack, current))) {
+			msize_and_free = *SMALL_METADATA_FOR_PTR(ptr);
+			if (!(msize_and_free & SMALL_IS_FREE)) {
+				malloc_printf("*** in-use ptr in free list slot=%d count=%d ptr=%p\n", slot, count, ptr);
+				SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+				return 0;
+			}
+			if (((uintptr_t)ptr) & (SMALL_QUANTUM - 1)) {
+				malloc_printf("*** unaligned ptr in free list slot=%d  count=%d ptr=%p\n", slot, count, ptr);
+				SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+				return 0;
+			}
+			if (!small_region_for_ptr_no_lock(rack, ptr)) {
+				malloc_printf("*** ptr not in szone slot=%d  count=%d ptr=%p\n", slot, count, ptr);
+				SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+				return 0;
+			}
+			if (small_free_list_get_previous(rack, current).p != previous.p) {
+				malloc_printf("*** previous incorrectly set slot=%d  count=%d ptr=%p\n", slot, count, ptr);
+				SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+				return 0;
+			}
+			previous = current;
+			current = small_free_list_get_next(rack, current);
+			count++;
+		}
+		
+		SZONE_MAGAZINE_PTR_UNLOCK(small_mag_ptr);
+	}
+	return 1;
+}